Lamp sealing-in and exhausting machine



June"13,`1939.` D 'G'T'RUTNER 2,162,209

LAMP. SEALINGIN AND EXHAUSTING MACHINE v F11/5MM )y INVENTOR ATTORN EYS June 1 3', 1939.Y D. G. TRU'TNER4 2,162,209l i LAMP SEALING-IN AND EXHAUSTING MACHINE Filed'my 1'?, 1957 13 sheets-sheet 2 June 13, E939; D. G. TRUTMER` v2,162,209

LAMP SEALING-IN AND EXHAUSTING' MACHINE l Filed May 17, 1937 15 sheets-sham` s June 13,1939.` D. G. TRUTNER. 2,152,209

n LAMP sEALmG-IN ANDv EXHAUSTI'NG MACHINE Filed May 17, 4937 13 'SheetSfSheet 4 4INVENTOR I mqmKWA, f'Mbf/l D. G. TRUTNER LAMP SEALING-N AND EXHAUSTING MACHINE June 13, 15939.

Filed May 17,` 195'( 15 sheets-Sheet 5 lNvEoR DI C ATTORNEYS v June 13, 1,939e D. cs.. TRUTNER .LAMP SEALING-INND EXH/USTING MACHINE l5 Sheets-Sheet 7 Filed May 17, 1937 WSN .ATToRNEYa June 13, 1939. D, Q TRUTNER LAMP SEALING-IN AND EXHAUSTING MACHINE Filed Mayf17, 1957 -15 sheets-Sheet e INVENTOR f Y A H B l mmJMHvywwVMM/ ATTORNEYSv ,19119191.9392 N D, TRU'TNER 2,162,209.

LAMP sEAL1NG-1N AND ExHAusTmG momma` l Filed May 17, 1957 1s sheets-sheet 10 2D. QTMM moa/13E, www, Mw/i ATTORNEYS.

June13, 1939. D G TRUTNER. w 2,162,209

LAMP SEALING-IN AND EXHAUSTING MACHINE ATTORNEYS.

.lune` 13, `l939. D. G.'TRUTNER 2,162,209

LAMP SEALING-IN ND EXHAUSTING MACHINE Filed May 1v, 1937 1s sheets-sheet 12 NM 409 u D a 4 4/7 "Z2 4/.9 'l .-1/48 43! 9 INVENTOR j 3 'n ci. TLM

ATTORNEYS,

Patented June I 13,- 1939 I l 'UNITED STATES i ,LAMP sEALlNG-IN AND ExHAUsTiNG MACHINE 4 i Donald c.. Trainer, North Arlington, N. J., assignor to Alfred Hofmann & Company,y West New York, N. J.,l a corporation of New Jersey Application May 17, 1937, Serial No. 143,034

, 55 claims. (ci. 176-32) This invention is a novel'- lamp sealing-in and exhausting machine, having to do with'the fusing or uniting of the lamp bulb and the stem or mount, these being well-known glass parts, and thereafter exhausting or-evacuating and finally sealing or tipping-off the product. The invention y has reference ,to the manufacture of. electric lamps of various classes, whether for illuminabulbsor tubes containing electrodes `or iilaments and either exhausted ofair or filled witha spe-v cial gas, the term exhausting being intended to` include such iilling. The presentinvention pertains particularly to `a machine .or automatic apv upon and advanced progressively around aV path or circuit, preferably step by step, through a series of stations orpositions at certain of which the successive-operations are performed.

The position `of the present improvement in the art may berindicated by reference to certain prior patents, as follows. 'I'he rotary turret type .of machine used `for other lamp making operations is shown in the patent of Trutner No. 1,990,258 of February 51935, whereinthe stem member of thel lamp is manufactured, comprising a flange, an` exhaust tube and other parts; of glass, withv leadwires embedded therein; and in Palucki No. 2,069,386 of February 2, 1937, wherein lamps are "nished. 'I'he prior art further' shows many patents for performing the step of sealing-in, that is, fusing and uniting the skirt of the l-`bulbimember tothe flare or flange ofthe 40 stem member of a lamp; andit shows also many examplesof exhausting machines,-. for evacuating the airfrom the sealed-in lamp and tipping-oil' j or finally sealing the exhaust pipe. The art also shows combined apparatuses wherein the sealing- 5 ,45 in is performed in one series of heads but the lamps -thereafter haveto be shifted manually to other heads for the exhausting step. An example of a patent showing the feeding of bulbs into sealing-in, heads is Trutner No. 1,989,898 of February 5, 1935. An example of a head adapted for i a combined sealing-in and exhausting apparatus is'shown in patent of Anderson and Trutner No.

. 1,989,891 of February 5, 1935; this providing rotationof bulb and stem during sealing-in, fol-` 55 lowed by stoppage. and then coupling to lexhausting connections; and the present invention is of this kind; but it is believed that no other machines of such kind are known, though machines are known wherein sealing-in followed by exhausting are performed in the same head but 5 without-rotation during sealing-in, and without the various novel features of 4thepresent inven; tion. tion, radio or other purposes, in the nature of l i One of the mainobjects of the present invention is to provide for the consecutive performance of the sealing-in operation and the exhust- `ing operation `in prompt sequence, as thelamps traverse their path or circuit, and without the necessity of any transferoi the sealed-in lamp from one head or conveyor to another. Specifically an objectA is to-provide an vautomatic machine of the rotary turret type with a single series of heads wherein both the sealing-in and the exhausting operations are performed, including tipping-01T, without transfer of the lamp from one 20 head or series to another.` Another object is thel provision of a head or lamp-holding structure of improved construction and operation, adaptedfor the performance of both thesealing-in step and f the exhausting step. Further objects include the. 25 provision of various cooperative steps, as the stretching of the seal, testing each lamp for leaks, repositioning the leadwires'ibefor tipping-ofi,l stretching`theexhlustpipe during tipping-off,

and removing the cullets or fragments; and 30 mechanisms for performing these steps, between the infeed ofthe bulb and stem members and the outfeed of the finalproduct, and also an improved outfeedingmechanism therefor.

Further objects and advantages of the p Qs-ent 35 `invention will be explained in 'the/hereinafter -foliowing description of an illustrative `embodiment thereof or will be manifest to those comn versant with the subject. To the attainment of the recited objects and advantages thev present 40 invention-consists in the novel ,sealing-in and exhausting machine. andthe novel. features of operation, method, combination, arrangement and construction herein illustrated or described. 7

In the' specification, for convenience, the term 45 front and similar terms will be usedto denote a direction ortposition outwards with respect tol the circulariserle's of heads or to the vertical axis of the turret, at any given part of the circuit, and the terms Lbackf or rear to denote the reverse thereof; andit is to be understood that various statments of direction and the like, as up, l down,V etc., are intended to be relative'and for greater facility of description. v t

In the accompanying drawings,Y oni sheet 1,

1 isa schematic planviewor diagramot thepre- !erred arrangement andorder o! operation of the several steps and mechanisms involved'in this invention, laid out with relation to the in-. g termittent progress ot the circular-series oi.' heads,

'of which thirty 'are shown with one standing at each station or position, and the diagram indif cating by'legends the preferred order and nature of the successive operations, the mechanisms of 10 which are illustrated in subsequent figures or` otherwise disclosed. Fig. 2 is a diagrammatic plan view showing the means for rotating the n.1. Fig. 4 is a diagram 0f the wiringand oontroldevices, and showing the relation of the electric control to certain of the vacuum connections, in respect to the detection of. detective lamps at station It.' Fig. 4 is an enlarged detail oi'part of Fig. 4.

u n sheet 3, Fig.- 5 is a general plan view of the machine..but with the-,heads and their mountinssemitd, takensubscaniituy en the iine s-I 4oi' l'ig.3, but broken away at several points to show betterjthe' underneath arrangements of a0: shafts and operating connections. Fig. 5 is a detail elevaon view oi certain parts Aof Fig. 5. On sheet 4, Fig. 61s a top pian view of a short extent oi' the rotary turret, showing the heads at stations 12,13 and Il, and illustrating `the u. means tor stopping 'the head rotation, also the,

. -\mean`s for the s hing of the lamp seal after thecoupling at station of the lamp tothe vacuum connections. Fig. 'I is a vertical foreand-ait 4or radialA section of o ne of the heads,

` 9, beyond the mib-receiving station, for exemple at stationsA 8-Ii, whereat the head is receiving.

cooling air. Fig. B is a left elevation of the head and stretching cam or wedge, at station I4; whereat the lamp has been lifted and the seal stretched.-

f. n.. e is a front elevation oi the sesi stretching cam. Fig. 10 isa left elevation' o! the head in.

its adjustment at station 2l, the lamp being shown elevated for outieeding purposes.'

on sheet s, ng. 11 is e fore-end-sff. verticaly .o sectiononanenlargedscale of thelower part ot the head ot Fig. fl, with downward continualtion showing themechanism for eii'ecting the coupling and uncoupling of each lamp to and 'from the vacuum connections, this gurehOW'- s; ing the upper partsv in coupling position as they will be at stations 4Itto 3l v(with an exception at Pig. 16 to be stated) and showing the lower vor actuating they are Aarranged at station Il, ithis being also representativel of .the

' o mechanisms stations n and is. Fig. 121s s i chineany lamp 4vwhich has been determined to be'unableto hold its vacuum," shown in position `withfthe-partsretracted and the defective lamp discarded: certain of the parts being shown ad- 1I ditionally in dotted lines in' their advanced' position engaging the lamp in a head. Fis.. 1461s a ,rear elevation 'of the same parts, that is, looking at the left end oi Fig. 13. Fig. 15 is a, left elevation of the same parts, vat the same position as 2138.13' and 14. Fig. 15* is a partial bottom planview showing the jaw tilting cam'or slot.

Figs. 16 and 17 are'central section views 'in left lelevation f certain details of Figs. 13 to 15, Fig.

16 showing the position while the lamp removing jaws are latched closed, and Fig. 17 when they are unlatched and' released.

On'sheet 7. Fig. 1.8'is an elevation in substantially iront view showing the details of the clutch for coupling to the drive shaft the defective lamp electing mechanism, vand the clutch controlling means; and showing also the connections' for eil'ecting the lowering of the lamp stem support or mount sleeve at station I5. Fig. 19 is a vertical section taken on the line is-l 9 of Fig. 18.

Qn sheet 8, Fig. 20 is a=top plan-view taken at stations 25, 26 andr 21 and showing rthe devices which `ieilect frontwardly the depending leadwires and bend them up out of the reach of the tipping-0i! ilames, during Danses of lamp travel. Fig. 2l isla left elevation o! the mechanism shown in Fig. 20. Fig. 22 in left elevation is 4substantially a downward continuation o! Fig. 21 on a smaller scale, showing the actuating connections and c'am. Fig. 23 is a diagrammatic view showing four successive positions'oif'one oi the wire pulling hooks of the deiiectin'g device in relation to the lamp exhaust tube and the Wire to be deiiected. Fig. 24 is an elevation view showing the operation ot an additional wire bending-up iinger, shown also on Figs.' 29 and 27.

' On sheet 9, Fig. 25 is a iront elevation taken at station 2l showing the tipping-'ofi mechanism,

with dotted lines showing part of the outfeedling movement. f Fig. 26l is substantially a downward continuation of Fig'.`25 o\1 a smaller scale,

showing the cam any 'actuating connections therefor. Fig. 26'L is a diagram of the contour and action of the cam of Fig. 26, showing the bulb holder up and down movements at sta- O11 sheet l0, Fig. 27 is a top plan view of the mechanism -shown in Fig. 25, partly in section on the line 21--21 of Fig. 25.

On sheet 1l, Fig. 28is a top plan view of the unloading or outfeeding device at station 29, preferably located and operating directly above the tipping-oi! device at the same station. Fig; 29 is an approximately'. right elevation of the mechanism shown in Fig. 28. Figs. 30 and 31 are partial, right elevations showing' later stages of position of the lamp',.illustrating'respective1y its tilting and its discharge into .the outfeeding chute. j

0n sheet l2, Fig. 32 is a topplan view` of the mechanism for extracting from the head at station 3l the 'cullets or remaining fragments of the lamp skirt and the exhaust tube, the parts `in cullet engaging position. Fig. 33 is a left elevation of thesame mechanism and in the same podtion as ln Il'lg. 32. Fig. 34'is a partial top view of the tube culletremoving device showing it retracted and the extracting jaws open.

I"Pig 351s e .left elevation of the skirt cullet reso the flange, ready for sealing-in.

to the line 31-31 of Fi'g. 36. Figs. 38, 39 and .40

` are vertical sec ion views taken on the lines 38-4l, 89-39 an lll-4I respectively of Fig. 36.

' The lamp parts dealt with in this machine are g54 shown in various figures and comprise the glass bulb" a having below its neck the usual depending skirt b, which is subsequently removed, forming a `cullet b'. The lamp stem member -Vc may be such f as is producedin the machine of said Patent No.

1U 1,990,258. The stem c comprises at its lower part aare or flange d, to be united to the'bulb neck, and has an axially extending tube or pipe e by which the lamp may be exhausted or gas-lled, its lower end being later removed,m forming `a cullet e. Leadwires f depend below the stem flange,

`,as usual, alongside the exhaust tube. The pres` ent machine performs the sealing-in or fusing of t the bulb neck to the stem'flare of each lamp, and

the exhausting or gas-filling, and the final tipping-'off or sealing of the exhaust pipe, all in the same head. 'Ihe stem partl when fitted with filaments or electrodes is termed a mount but they are not here concerned and are omitted from the disclosure. The diagram Fig. l indicates thirty stations' i numbered I to 30, at various ones of which the operations of this invention are performed. It shows valso the turret 3l carrying the succession` of thirty heads 33. .The inscriptions indicate the preferred order of operations and arrangement,

which may be reviewed as follows. Between stations I and l each head may be supplied with a lamp stem c; for example the operator may insert from above the stem member by hand while the' head is pausing at stations i I, 2` or 3; the stem flange to rest upon a stem support 88, 81 Fon a mount sleeve or shank 85, with the tube .e and wires f hanging therein and with the -tube therebelow engaged loosely in an A 4o open'coupling or plug 99, as later described. At

station l is indicated a bulb loading or infeeding mechanism 35.. This is not shown in detail as it may conform with that shown in said `Patent No.

1,989,898; the bulb being received-on an overheadV`v 1 d5 holder 11 to be described. A photocell detector may prevent infeed oi' bulb to a head from which the stem may be missing. The stem support and bulb holder retain and carry these parts, positioned in axial alinement, the skirt surrounding- Beginning with station 5, andfor a number ofv stations, the lamp and the head parts supporting it are rotated continuously whether pausing or traveling. For this purpose is a belt 31 shown in aus` Fig. 2 andfto be .descnbd further. 4The rotation of the heads, that is ofthel bulb holder and stem support, is accompanied by thesealing-in operation',` comprising the applying' vof 'flames to the bulb neck. These lamp rotating. and heating ac.

ootftions-'iay' continue from station 5 'through station Il. 'I'he fusing of skirt to flare-is accomv` i plish'ed before reaching station II,` whilebetween f stations 8 and IIA a cooling air stream maybe flowed through the heads to 'prevent overheating si and damage to the coupling plug. -At 4station I.2`` is the operation o f removin'g or blowing` oil, by a w more forcible internal air pressure, the glass` j yskirtextending below the sealing point, the skirt f being thus detached as' a cullet b': to be carried m loosely by the `partswitiriin until extracted. This skirt removing operation byan' air puf! is assisted by an intense. cuttingflame applied at thecutolf point, which melts the glass while the air within swells and bursts itfthe seal or joint then i5 smoothing itself under the applied heat, all dur- 4 aieaaoo x u 3` ing lamp rotation; At station Il the joint may be annealed'by a change to a mild frame.

At station I3 the rotation is stopped, and the V:bulb holder is arrested in a definite position; and the exhaust tube e is then gripped -by the surs` rounding plug and so coupled to' the exhausting `connections. At or approaching station Il, while still maintained warm and soft,'the fused joint or seal between bulb and flare may be stretched by the lifting of the bulb holder 11, say l/a inch, .10 while the vacuum coupling holdsdown the stemt after which the joint is allowed to solidify or harden. 'Ihe bulbholder may now descend, as it advances, leaving the sealed-in lampthussupparted only by its exhaust tube held upright by 15- the coupling plug. Or the holder may remain in position to steady the lamp, while the stem support, at station I5 or later maydescend to expose the leadwires and exhaust tube.

At station I5 the lamp is exhausted by a pre- 2Qv liminary or'testing vacuum,and at station I6 is the ejecting mechanism or device 89 operating when detecting leakage therein. The lamp may then be re-exhausted at station I1 by the test vacuum, and thereafter, for example from, 25 stations I8 tolli., it may be subjected to finalor full vacuum. Therebeyond the evacuation may be alternated with flushing or partial filling by a suitable inert gas, as sometimes practised in mak-v ing gas-filled lamps, in which case the filling gas so may be admitted between stations 28 and 28. The flushing may be omitted if an evacuated lamp is to be manufactured, and ,evacuation may continuetostation 29.

At stations 25 to 21 is indicated the step of and as device li for pulling frontwardly from the tube e and positioning out of the way the loosely e`x. tending leadwires 'f of the lamp, preparatory to the tipping-off. At station 28 the preheating of the exhaust tube in preparation for the tipping- 40 off action. At station y29 is indicated the tippingoi operation and a device, therefor;` also the outfeeding or unloading` operation and mechanism therefor; these cooperating herein in that the lifting of the lamp serves ,both for the stretching 45 ofthe exhaust tube' in the tipping-off' and forV the outfeeding. At station SII sthe operation of and mechanism for removing the glass fragments, namely the c ullets or discarded pieces of skirtb' and tube e. so:

General parts and' head l construction The general machine parts, as 'seen in Figs. 5 A and elsewhere, comprise frame legs supporting .a generally circular table 50, the inner portion 5I of which is shapedgto give rotary support to-the turret 3i. Y l A The turret construction andop'eration may be generally similar to that shown in Patent 1,990,-

258. The turret has a series of dependingstuds .o

5l which. in succession are engaged by a driveI cam 54 on the -pe'riphery of a wheel' 55 secured on 'a horizontaldrive shaft 58. There are thirty studs in a thirty head machine,l so that with each cycle or rotation ofthe shaft the turret advances 65 to the extent of one head or static-ng. The primary .drive shaft 58,'-through bevel gears drives always a secondary drive shaft 8l and occasionally,

' through clutch su, a thirddrive shaft m, both at right Sangles to-theprimary shaft, and each making one turn per cycle.' 'Also the driveshaft carries Va worm jwheel 51 engaged byy a worm mounted on a power shaft 59 carrying one or more pulleys II Vwhich mayv l"be driven by belt from .a moto`r or otherwise. 16j

'The turret is shown as provided with a removable cover piece' I2. 'I'he turret also has a nxed outwardly extending flange II formed with a series of thirty cylindrical bearings II constituting the support members of the heads.

t The details of the head construction are shown more particularly in Figs. 6 to l0@ In Fig. 'I

. the bearing or bracket II is shown supporting the I drical bracket II. Adjacent to the bracket I1 isal lock nut II by which a sleeve II to be described is iixedly mountedon the bracket.

The rotary parts of each head comprise pri-,l

marily the bulb holder 11 and stem support I1, and

with these their hollow shanks or vertical sleeves,

- which are 'also vertically slidable, and other parts carried byor connected therewith. Thus within the cylinder or bearing. isa nrst or outer `vertical sleeve II, with bushing or"lining between them.- I'he first sleeve II is rotatable but not ver- -Ltically movable, and its top end is formed with an outwardflange 1I overlving'the top of the bearing. The lower end of the ilrst sleeve carries a 'pulley 1I, seen also'in Figs. 2 and 3, this being engaged tangentially by the belt I1, by which the heads at stations I kto II are rotated. The

pulleyv 1I is formed also with a notch 12 coop? erating with a stopping. member III o n each i head put into enect at station is, by which the rotation is arrested and the parts locked in adennite angular position.

. Referring to vlthe remaining headAA sleeves in their assembled order. the second or bulb holder.

sleeve 1I is tted withinthe sleeve II, and itis arranged to'rotate therewith while capable of sliding therein. At its top end the sleeve 1I carries a circular disk 1I and slightly therebelow a shoulderresting upon the flange 1I so that thesleeve l V1I depends within the-sleeve II. Upstanding from the disk"|l is B'Dlir of rods 1I`Which, with the riisir aim with a top piece 11 constitute a rotary frame for holding the bulb or lamp and at times for elevating it as will be described. The top piece l11 may be open at one ride like the letter c, as

usual, and contains three interior projections or,

lugs` 1I giving concentric support -to the bulb. The frame 1I-11, or merely the supporting'ring 11 maybe considered the bulb holder, this being supported on its hollow shank, the sleeve 1I. In order to cause the bulb holder to rotate with the `pulley-driven sleeve II a post. I I is provided upl standing vertically from the flange 1I vand passy ing slidably through a hole in the. disk 1I as showninl"igs.8andii.V

' The third or stem-support sleeve II may slide vertically within the second sleeve 1I, and they may rotate together as by friction. The sleeve 1I, Just below its disk 1I, is yshown with a series of radial perforations -containing -friction pins or plugs' I2, all pressed inwardly'by a surrounding coil` spring II so as to bear upon thesleeve II within, affording a frictional dinge by which they normally lturnin unison, while allowing longitudinal slippage forrelative lifting and lowering. The third or mount sleeve II -at its top end carries `a hollow end pied: II, on top of Awhich is 5 mounted a perforated top piece` or support I1,

at the top edge of. whichthe flare d of thelamp vlowered and lifted at .certain times, as later de-.

- scribed. The track sections II and- II are supported. by fixed posts II. v I

Within the sleeve II is a fourth or fixed sleeve II, the two being spaced'apart, providing an annular channel II `by which air may be supplied to flow upwardly between the sleeves and thence through the members II and I1, for delivery near.l

the fusing or sealing-in point, gently or forcibly as already indicated. The sleeve II carries 'a hollow top piece II with flared end I1.to receive readily the stem pipe e. The top piece carries within it a centrally perforated coupling shown as a soft rubber body or plug II through which normally the glass `-pipe, may be easily inserted, and within which it may freely rotate until the plug has been compressed to grip the pipe.. The sleeve II is fixed by its lower end, being shouldered to engage the bracket I1 and threaded for the locknlit II. D y

ity

'Within the fourth sleeve II is a fth or suction sleeve III, the upper egg of which contacts the coupling P1118, and is sli ilanged to over. lie the top of the fourth slee e and to extend to the walls of the hollow top piece II. By relative lifting movement of the ilfthsleeve the coupling can thus be vertically compressed, which causes radial contraction of its central bore or aperture. This lifting action therefore seals the coupling plug both to the glass pipe within and to the top end of the fifth sleeve, thus connecting the two in a suction-tight manner `for the exhausting operation, thepas'sage III within sleeve III being a part of the suction connections. Buch plug compression may also be utilized in the case of a defective lamp removed from any head to close entirely the plug aperture and; prevent loss of vacuum at such head.'

.Theiifth or innermost sleeve III der above its lowerkend by which it rests upon a surrounding disk III that overlies a .thrust bearing III. .Beneath the thrust bearing is-'a cooperating pair offcam'disks III a'nd III, each having an inclined surface so that relative rotation causa the camming apart of the disks.

See also Fig. il. As the-lower disk` III rests upon yhas a shoullamp to the exhaust connections. To effect the cam action the upper disk is shown as having a `radially projecting arm III which may be swung as by means of an upstanding pin II1 mounted on a rockarm III controlled as will 'be described.

At certain stations a means is provided for supplying air to rise in the annular space II between the head sleeves II and II. A fixed air conduit or rmanifold III is shown, see Figa-3 and 7, having ports II I, at stations I to' II, controlled by valves III. These fixed ports 'each aline with' a passage III in thejbearlng II of .each head. Inwardly thereof the sleeves II, 1I and'II are formed withA apertures' or annular chambers I2 by which compressed airfsupplied in conduit III can now into the channel I4, thence to -rise into.

the' end piece II and iiow gently through the apertures in top piece I1 as already described. At station II a single air connection may. deliver the "las , portant to cool the coupling device against the adjacent tipping-,off heat; and for this the sleeve 85 has' a` special upper port 03, Fig. 7, arranged when lowered to ,aline with the other air ports described. f The connections between 'the exhaust passage 4 |0| in innermost sleeve and the source of vacuumniay `comprise a suction tube ||1`in aline. ment below the sleeve. An elongated rubber coupling H8 or tubing surrounds the adjoining, ends of the sleeve and tube. At the foot of the tube ||1 is a trap H9, and from the rear thereof extends aV tube leading radially tothe central exhaust valve as will be. further described. The trap can catch foreign matters, as oil; and a special trap is shown in Fig. 12 as later described. The gas and air conduits of the apparatus, see- Fig. 3, are supported^on a bracket |24 .mounted at the top of va post |25 upstanding from an extension |26 of the table 50. The'conduits include a-fcurved gas' duct |28 from asuitable supply, and a curved air duct |29, from a compressor. Bothv fluids` are under regulable pressure, for mixing for the heating flames. A curved third duct |30Y also is shown carrying compressedgvair for cooling purposes, Figs. 3and 7 showing a connecting pipe |3| therefrom to the manifold ||0\,

The gas and air connections and the burners may. be in principle like those describedl in Patent No. 1,990,258, and will be only briefly described herein. See also Figs. 25 and 27. vThere is shown a pair of pipes |32 leading. from ducts |28 and |29 to a chamber |33 in which the burner gas and air maybe mixed, under'control of valve |34. The mixture is delivered therefrom `to cross ducts |35, shownV in Fig. 3 as arched over the path" of the 'traveling heads.- At each side, front and back, each arched duct leads to a local manifold |36, and these in turn feed burners or nozzlesl |31 which may be in groups of two'or more located at suitable points around the travel of the head, in accordance with the operations as described and outlined `on the diagram of Fig. 1. Y

.` g; Head rotation and stoppingv Referring next to the rotation of the head pulleys 1| from 'stations 5 to I3 inclusive, this is performed bythe endless V-belt 31 as shown in Figs. 2 and '1. ,Thebelt engages the grooves of l the pulleys and passes around Va. driving pulley |40 and conveniently placed`y idler pulleys ill. ToA maintain the belt taut a special idlerf pulley -|42 is arranged on a spring-pressed swinging arm |43. The drivingpulley is on a shaft |45 which maybe turned by a simple gear connection as shown in Fig. 5, the flower end of the., shaft Acarrying a bevel gearv |46 lengaged by a lrger bevel gear|41`o1n the main drive shaft 56. Thesei continuously moving parts maintain the heads in rotation from stations-5 to I3.' at av speed for example oi' about two turns per second. Each head will remain in rotation until arrested at station ,|3. by the meansnext to be described.

' The head arresting means consists primarily of a stop dog or nger |50, preferably pivotedvat vI 5| below theturret extension or flange Il as best seen in Fig. 6.' The swinging end 12* of the finger 75 |50 is adapted .to enter the notch 12,. formed in4 aco 5 the flange of the pulley 1| and a spring |52 pulls .constantlyupon the finger tending to cause it to i assume arresting position. 'I'he stop finger is one arm of va. lever which may be a bell crank lever, its other arm |53 carrying at its front extremity 5 a contact or roll by which the stop lever may be swung against the pull of the spring.

The turret 3l'carries a head stop |50 for each .of the heads, and each stop is held retracted or inoperative as its head travels around `between 10 stations 5 and I3, whereupon the stop is released and caused to bring the head to a positive arrested position and hold it locked there during Y the remaining operations upon thelarnp. To re#- tract the stop finger and hold it so during head@A 15 rotation there4 is shown a xed or passive cani' or track` |55 seen in Figs.5 and 6. this having an in'- clined or cam entrance surface as Fig.. 5 shows,- and being curved therebeyond concentrically with the path of travel, so that the track rst swings 20 `point just in advance of station 5, and Fig. 6 25 shows the fingers retractedat stations |2 and |3- but in stopping position at station i4. Instead ."however'of allowing the arm or follower |53 to ride off from the track |55 fo the release during Y travel of the stop finger and t arresting of the 30 head, it is preferred to per orm this control during the pause at station I3 by a quick or carn-` contrlled movement not dependent upon the indexing travel.. The track |55 therefore isvprovided with a swinging terminal piece or switch 85 |55 pivoted to the track at 51, this having a normal position with its` inner yor, active edge forming'a concentric continuation of the inner edge ,of the fixed part of the track, so that. as u vbest seen' in Fig. 6, the traveling follower arm 40 v 53 will pass on to and along the swingable terminal section without effectv upon the arresting `lever. When however thefollcwer arm reaches the position shown in Fig.,6, as pertaining tothe lowed to become operative by the outward swinging of the terminalpiece fromv the full line` to the dotted line position of Fig. 6, following which thehead turns further until arrested when the notch 12 engages dog |50.

J'I'his stop release and head arresting may beunder the positive control of .an iactive cam as follows. The track piece |55 has its pivot on a 4 vertical shaft |51, see Fig. 5, which extends downwardly'to where it is oscillated at the proper 55 point in each cycle to allow the quick swinging of each stop finger into stopping position. The vertical shaft |51 is therefore a rockshaft, and near its lower end is attached a rockarm |58 connected by a link I59'with a rocklever |60 pivoted 00- Lamp lifting and lowering j l lo ,As already stated, the lamp or bulb'holder 11,

carried upon the second sleeve 13,- is raised-rnear-m- A.;

station u thus to' un the bun and stretch the seal whil'ejthe glass is still warm; and at a later point, namely stai-.ion n, me holder is am:

7 ndesisneuto v{Turm-d theselseuommesqn enla raised in ordento s tretchthe heated exhaust pipe during the tipping-off and to continue the lifting of the lamp for utfeeding purposes. These hold'- erliftingswillnowbedescribed. The bulblifting operation adjacent stationii'is shown per-'- formed by anxed wedge or cam ill acting underneath thedisk 1l of the bulb holder as shown ih Figs. 6 to 9. Thus,'during the indexing movement as the head comes to station Il the disk rides up on the nrst incline of the wedge. lifting the bulb and stretching the seal. The head pauses at station Ii with the disk at the apex of the wedge, while the glass hardens, the next Iindexing movement allowing the holder to descend again to the initial position. This simple and passive contrivance or wedge performs this stretching function. 'Ihe double wedge or nxed cam Ill is mounted in any convenlentmanner as' upon a fixed bar or bracket il.. When the holder descends beyond station Ii the lamp isA held only by its exhaust pipe: but by prolonging the wedge apex the holder may remain up, even until tipping-off. 'I'he mount sleeve or stem support preferably is 'lowered at station il to make s pace for the operation of the defective lamp ejector,- but if the electing operation Ais omitted the mount sleeve may be left elevated until station Zi-to minimize heating of the cou- 911118111118.

For the purpose of lifting the bulb holder 11 at station 2l there may be employed a finger or lbai' |1I which is shown in Fig. l1|) as being forked below. 'Iheseparts are showninllgn whichis a downward continuation'of Fig. 25. The cam. lever is fulcrumed on 'a brieket Ill depending from the table and carries a follower I" engaging the groove |11 of a cam disk |1I mounted on the secondary drive shaft Oi.

The lamp holder movements caused by'can |11, atstatlon 2l are shown by the diagram Pig. 28"` of' one cycleof movement. At k the holder isin its normal or lowest position. during indexing adl lvance which may be one-sixth of the time cycle.

pietetnetipnins-oir. .unter lift withthelampfromnktoland'fr'amltonearly A1n. Then is an-extended.lift from,1n`to 1l. 8'

ll'romktolitisllfted.say l,inch,thesameas the and lowering at station Il. thus toe clearance between holderand bulb and to support the latter during tipping-cti.- 'Ihis occurs immediately after the indexing ceases and gives support tothe lampbefcretheiiameshave i softenedtheglasspipe. Atl is a dwell long enough to ensure softening of-the pipe. Then a nxbstanl -tiaLliftoccinsfromlYtonLsayl/sinchfurther.

enough to attenuate the 'softened pipe and-comi inches moreor less; which raises high the lamp formmeemnm mdtnenmpbemgummn, ferred, the holder' promptly descends. est* inches, from nto the'initial level k. The/cam |11 ulpununeourozf l I @Nut wm be cesenbestnemesm incontrai-1 ling member or plug. normallyv escasos loose about the pipe e of the lamp, but' adapted to be compressed bythe rising of the nfth' sleeve lll to contract the plug and cause it to grip the pipe, thus coupling the pipe with the exhaust passage III. The mechanism has been partly described on 7. and is further shown in Figs. 1l and l2. In Fig. l2 position .1: corresponds with the initial or lowered position of the sleeve and the free or open condition of the plug. Position u;

corresponds with the partial lift of the sleeve and the coupling of the plug to the pipe. Position z corresponds t'o the complete lifting and closing of the plug when not occupied. It was shown that one or a pair of upstanding pins |l1`is adapted to swing the arm IICy for these purposes at various stations, namely il, Il and Il. The pins are mounted at the top of a rocking arm |08, nor- ,mally loweredasshowninlllgs.7 and 11 seas to be inoperative.- The connections at station 30 will be taken as illustrative and are shown in Fig. ll. The arm ill has a hub or collar llt secured at the top end of a vertical rockshaft lli which can also slide vertically as indicated by the dotted lines. The collar ill rests upon a second collar il! which is'secured at'the top end of a sleeve llt extending vertically through a fixed bearing lli. Said bearing is part of a bracket i attached at the underside of the table 50. The sleeve ill constitutes a hollow rock'shaft, the shaft III rocking with it but being siidable vertically through it, the sliding being permitted by the provision of a pin Ill up'standing from the .collar |02 and passing loosely through a hole in the collar ill. and serving to transmit the oscillatinganotion.

By now lifting the shaft ill and then rocking it through sleeve llt-the pin or pins lli will be' lifted and swung, thereby to engage and operate the finger I and cause the closing or coupling of the plug. or its reopening, as the case may be.

Theseconloint motions to aiford the coupling and uncoupling operationsmay be'produced as follows.l lhelifting and lowering of the shaft ill iseected by means of a cam lever lllhaving its yokedendinllftingrelationtotheshaft. This is fulcrumed onva bracket |l1 which also is a bearing for the secondary ,drive shaft Il. also Fig. 5. The lever I has a-follower i" enl gaging the face groove i" of a cam'disk itl moimted on the shaft ti. 'nie contour of the 'cam III determines the up and down movements.

See l the parts being shown in their lowered position. The rocking' movements of the plug-closing con' nections are effected through a spurgear |82 mounted upon the lower endl of the sleeve I. Tbisgearisengsgedbyacurvedrack informed onanarm-ifulcrumedonastud ill depending fromtbetablell. sothattheswingingofthe arm'causestheracktooscillatethegearand 'rockthesleeva The arm llihasatits freeend rockarm- I and parts beyond. The couplingmotion or l'plug squeezing is bylift of sleeve III,

but this motion is re1ative,and a owering ofthe sleeve could well be em-v complementary partin particulars to l -station Ilatwhichthecouplingistobeopened and-thepipe collet released. 'Ihere ieonly one pin illatthisltltionasseeninl'igJI; Analogous mechanisms effectlifting of sleeve. Ill 'to close the couplingat statienfaud, at station I l,

when a defective lamp is to be ejected, the lowering of the sleeve to releasethe pipe, and its relifting to close `the empty plug, in. this latter case there being two pins I8Tas shown in Filz.- 12. 0n Fig. `12 the three positions of nger I06are diagrammatically marked 11 and z. At station I3 the swinging finger is pushed from :c to y to close the coupling or plug, for every' head. At station I6 it is shifted first from y to :c and'then from :r back to y and on to z, but these motions `occurring .only when the lamp is defective. Or,

if the lamp be missing, the coupling may here be fully closed. At station 30 in all cases the nger has to be pushed from' either e or y back to :'r, according to whether. it has been shifted atstation I 6, thus finally to reopen the plug.

The coupling control mechanism at station I3 is analogous to that described for station 30, and on Figs. 5 and 5e appear parts IBI, |88, |88,

|80, I8Iand |98 corresponding to the parts bearing the same numbers without the exponent. Similarly for operation at station I6, 'are shown fthe parts I8Ib, |88, IBI", I88b,. givingL similar operation, but with av swingfrom position y in one direction to x and thence back in the other direction to z, the groove of cam |98b on shaft on every lamp. At station IGJiowever the lifting and lowering yoccur only when a defective lamp is to be removed, the finger |06 otherwise remaining idle. The cam I8Ibtherefore, for this purpose, is

`mounted on the third driveshaft 200 which is normally idle but is operated for a'. single-rotation when and only when a defective lamp has been detected, a clutch being provided between shafts 56 and 208 for this purpose as will be described.

` No uncoupling and plug closing at4 station I6 are vrequired when the leaky lamp is not to be extracted but only lmarked for later rejection, the de `tectingmeans in that case4 merely causing the action of the lamp marking or identifying means.

The shutting off of the head from the vacuumis i then' otherwise performed, as to be described.

Stem support lowering and lifting Coming now to the third or mount sleeve 85 of the stem support-8'l, which is to be lowered at' 4station I5 and subsequently lifted, the connec- -engaged with a fixed track/88. l'I'his track con-4 horizontal track portion 88, Figs, 5 and 18, which'` L 60 tions for these operations may be as follows, referring'to Figs. 5, 'lV and 18. The grooved head 88 at the lower end of the sleeve 85 is shown in Fig. '7

sists ,of several portions, commencing' with a high,

holds the mountsleeve up to lits initial position. This is followed by a short gap which is occupied by a track section 88h which constitutes an elesleeve head 88 passes, and by which' during the vatoropositioned at lstation I5, on towhich the station' pause it is lowered to the level of the next succeeding track section 88, say `'ii/4 inch. vTheL horizontal `fixed section 88'= extends around to station 88, where there is another gapbetween i reurted to the high'ievei of section am'.

sections 88 and 88:, this gap being occupied by a short section or elevator 8 8d on to which the sleeve head'88 may pass at station 88, to beV there If the liftingandlowering of the mount sleeve were tobe efiectedldrig'brief indexinggio'vements the movable or elevator sections might Pe feige by inclined sections movable-sections o r .elevators is preferred, permitting activeI cam control during the pause at each of stations I4 and 80, with better mechani-- cal action and results. The lowering at I5.fa cilitates' ejecting a defective lamp; if no ejection the'support may remain up until reaching 24, to

of fixed track, but the use of" be operated under'cam control, for exampleas follows.

througha,slideway, or bearing 206 mounted at the under side of the table 50. See Fig. 5. From the lower end of the vertically sliding rod 285 is a depending link 201 connecting the rod with a ca'm. lever 208, the lever being fulcrumed upon a dependingbracket 208, so that oscillation of the `lever gives the required up and down movements.

of the rod and elevator. The cani lever 288 carries a follower 2 I8 which is entered into the cam groove 2li of a'cam disk 2I2 mounted on the main drive shaft 56. 'I'he contour of the cam 2| l therefore determines the lifting and lowering Positioning of Zeadwires The device or mechanism 4 I\for positioning theleadwires-f, prior to the tipping-oil' operation, bydeflecting them forwardly from the glass pipe, at

stations and 26, and upwardly out of reach y l of the flames, at station 21,'is illustrated on sheet 4fleeting ngeror hook, marked 2|5 at one'side,

and 2I5 at the opposite side, orv preferably a group of several such hooks at each side, slightly offset' to afford successive actions.` Fig. 23 vshows substantially the motion of each individual hook or claw. After advancing rearwardly beyond the glass pipe'each hook swings in substantially into contact with it; 'I'he hook end of the finger is thereby brought beyond or behind the depending leadwire f, or the two leadwires. The hook is vthen drawn forward, substantially in scraping of the opposite hooks ensures against tle escape of the leadwire in this deflecting action.

'rhe'wire is. thus engaged by the hook and drawn around to the-front of the pipe. The oppositely cooperating' hooks here overlap or mesh together, conning the leadwire or leadwlres between them, and thenpulling them substantially forward tothe extent indicated by comparing the'station 25 and station 26 positions of the parte in Elig. 20.`4 For assurance .of action, not only are there hookslat both sides of they pipe,

but there is shown at sidea group of three As best seen inv Fig. 18 the elevator 80"'` is mounted on a hub or block 204 secured at the top of a, vertically sliding rod 205 passing down relation to the pipe. Each hook extends beyondl Y the center of the pipe, so that the co-operation 

